Add to ORKGCyanobacteria are important phytoplankton in the Baltic Sea, an estuarine-like environment with pronounced north to south gradients in salinity and nutrient concentrations. Here, we present a metagenomic and -transcriptomic survey, with subsequent analyses targeting the genetic identity, phylogenetic diversity, and spatial distribution of Baltic Sea cyanobacteria. The cyanobacterial community constituted close to 12% of the microbial population sampled during a pre-bloom period (June–July 2009). The community was dominated by unicellular picocyanobacteria, specifically a few highly abundant taxa (Synechococcus and Cyanobium) with a long tail of low abundance representatives, and local peaks of bloom-forming heterocystous taxa. Cyanobacteria...
Blooms of Microcystis and other harmful cyanobacteria can degrade water quality by producing cyanoto...
In the marine water column, microbial autotrophs and heterotrophs coexist forming the beginning of t...
In northern marginal seas, like the northern Baltic Sea, climate change will lead to many alteration...
Future climate scenarios in the Baltic Sea project an increase of cyanobacterial bloom frequency and...
Future climate scenarios in the Baltic Sea project an increase of cyanobacterial bloom frequency and...
As cyanobacteria can be found in a wide variety of environments and can cause great damage to ecosys...
Future climate scenarios in the Baltic Sea project increasing sea surface temperature, as well as in...
AbstractDespite cyanobacteria being a key phytoplankton group in the Baltic Sea, the factors governi...
Salinity is an important abiotic factor controlling the distribution and abundance of Nodularia spum...
The Baltic Sea is a large, shallow, and strongly stratified brackish water basin. It suffers from eu...
The Baltic Sea is a unique and delicate brackish water ecosystem with high primary productivity driv...
The Baltic Sea is a shallow basin of brackish water in which the spatial salinity gradient is one of...
<p>Frequencies and biomass of Baltic Sea cyanobacterial blooms are expected to be higher in future c...
Marine microbes exhibit biogeographical patterns linked with fluxes of matter and energy. Yet, knowl...
Blooms of Microcystis and other harmful cyanobacteria can degrade water quality by producing cyanoto...
In the marine water column, microbial autotrophs and heterotrophs coexist forming the beginning of t...
In northern marginal seas, like the northern Baltic Sea, climate change will lead to many alteration...
Future climate scenarios in the Baltic Sea project an increase of cyanobacterial bloom frequency and...
Future climate scenarios in the Baltic Sea project an increase of cyanobacterial bloom frequency and...
As cyanobacteria can be found in a wide variety of environments and can cause great damage to ecosys...
Future climate scenarios in the Baltic Sea project increasing sea surface temperature, as well as in...
AbstractDespite cyanobacteria being a key phytoplankton group in the Baltic Sea, the factors governi...
Salinity is an important abiotic factor controlling the distribution and abundance of Nodularia spum...
The Baltic Sea is a large, shallow, and strongly stratified brackish water basin. It suffers from eu...
The Baltic Sea is a unique and delicate brackish water ecosystem with high primary productivity driv...
The Baltic Sea is a shallow basin of brackish water in which the spatial salinity gradient is one of...
<p>Frequencies and biomass of Baltic Sea cyanobacterial blooms are expected to be higher in future c...
Marine microbes exhibit biogeographical patterns linked with fluxes of matter and energy. Yet, knowl...
Blooms of Microcystis and other harmful cyanobacteria can degrade water quality by producing cyanoto...
In the marine water column, microbial autotrophs and heterotrophs coexist forming the beginning of t...
In northern marginal seas, like the northern Baltic Sea, climate change will lead to many alteration...